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AP® Physics 2

AP® Physics 2

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AP® Physics 2

This algebra-based course (following your mechanics + fluids outline) extends core Physics 1 ideas—motion, forces, energy, momentum, rotation, and oscillations—and adds fluids. You’ll connect multiple representations (words ▸ diagrams ▸ math ▸ graphs) and justify reasoning with data and models. Each sub-unit below includes 30 questions to prepare you for both MCQ and FRQ, including lab-style prompts.

Category: AP Practice Examination- Grade 12

Description

Description

Units

Unit 1 | Kinematics

1.1 Scalars vs. Vectors; Units & Significant Figures — 30 Qs
1.2 1D Motion: x-1 and v-t Graphs — 30 Qs
1.3 Constant Acceleration (Kinematic Equations) — 30 Qs
1.4 2D Motion & Projectiles — 30 Qs
1.5 Relative Motion & Reference Frames — 30 Qs
1.6 Experimental Design for Motion (slope, area, uncertainty) — 30 Qs

Unit 2 | Force and Translational Dynamics

2.1 Free-Body Diagrams & Equilibrium — 30 Qs
2.2 Newton’s 2nd Law: Components, Inclines, Systems — 30 Qs
2.3 Friction (Static/Kinetic), Normal, Tension — 30 Qs
2.4 Newton’s 3rd Law & Interaction Pairs — 30 Qs
2.5 Uniform Circular Motion as a Force Problem — 30 Qs
2.6 Springs & Hooke’s Law — 30 Qs

Unit 3 | Work, Energy, and Power

3.1 Work (Constant/Variable Force; area under F-x) — 30 Qs
3.2 Kinetic & Potential Energy (gravitational, spring) — 30 Qs
3.3 Conservation of Mechanical Energy — 30 Qs
3.4 Work–Energy Theorem & Nonconservative Forces — 30 Qs
3.5 Power & Efficiency (mechanical/electrical contexts) — 30 Qs

Unit 4 | Linear Momentum

4.1 Impulse–Momentum Theorem — 30 Qs
4.2 Conservation of Linear Momentum (system perspective) — 30 Qs
4.3 Collisions: Elastic, Inelastic, Explosions (1D/2D) — 30 Qs
4.4 Center of Mass & Multi-Object Systems — 30 Qs
4.5 Applications (ballistic pendulum, rocket qualitative) — 30 Qs

Unit 5 | Torque and Rotational Dynamics

5.1 Angular Variables & Rotational Kinematics (θ,ω,α\theta,\omega,\alpha) — 30 Qs
5.2 Torque (τ=tF sin ϕ) & Lever Arm — 30 Qs
5.3 Static Equilibrium (ladders, beams, supports) — 30 Qs
5.4 Moment of Inertia (concepts; composite bodies) — 30 Qs
5.5 Rotational Dynamics (∑τ=Iα\sum\tau=I\alpha); Rolling Intro — 30 Qs

Unit 6 | Energy and Momentum of Rotating Systems

6.1 Rotational Work & Power; Rotational KE — 30 Qs
6.2 Angular Momentum L=Iω &∑𝜏=
6.3 Conservation of Angular Momentum (isolated systems) — 30 Qs
6.4 Rolling Without Slipping: Energy Partition & Ramps — 30 Qs
6.5 Collisions Involving Rotation (disks, turntables) — 30 Qs

Unit 7 | Oscillations

7.1 SHM Basics: 𝑥,𝑣,𝑎x,v,a vs. time;𝜔,𝑇,𝑓ω,T,f— 30 Qs
7.2 Mass–Spring Systems: Hooke’s Law, Energy & Period — 30 Qs
7.3 Simple/Physical Pendulums (small-angle) — 30 Qs
7.4 Energy in SHM; Phase & Graph Interpretation — 30 Qs
7.5 Damping, Driving, Resonance (qualitative) — 30 Qs

Unit 8 | Fluids

8.1 Fluid Properties: Density, Pressure, Equation of State — 30 Qs
8.2 Hydrostatics: Pascal’s Principle & Archimedes’ Buoyancy — 30 Qs
8.3 Fluid Dynamics: Continuity & Bernoulli Applications — 30 Qs
8.4 Viscosity, Laminar vs. Turbulent Flow (qualitative) — 30 Qs
8.5 Surface Tension & Capillarity; Manometers/Barometers — 30 Qs
8.6 Fluids in Physiology & Engineering (arteries, Venturi, pumps) — 30 Qs